References [54] Brockes JP. Amphibian limb regeneration. Rebuilding a complex structure. Science 1997, 276, 81. [55] Fujisawa T. Hydra regeneration and epitheliopeptides. Dev. Dyn. 2003, 226, 182. [56] Stappenbeck TS, Miyoshi H. The role of stromal stem cells in tissue regeneration and wound repair. Science 2009, 324, 1666. [57] Shibata N, Rouhana L, Agata K. Cellular and molecular dissection of pluripotent adult somatic stem cells in planarians. Dev. Growth Differ. 2010, 52, 27. [58] Umesono Y, Tasaki J, Nishimura K, Inoue T, Agata K. Regeneration in an evolutionary primitive brain – the planarian Dugesia japonica model. Eur. J. Neurosci. 2011, 34, 863. [59] Lindahl A. Tissue homeostasis, In: van Blitterswijk CA (ed), Tissue Engineering 2008, London: Elsevier Academic Press, p. 73. [60] Oh IH, Humphries RK. Concise review: multidimensional regulation of the hematopoietic stem cell state. Stem Cells 2012, 30, 82. [61] Chen JS, Wong VW and Gurtner GC. Therapeutic potential of bone marrowderived mesenchymal stem cells for cutaneous wound healing. Front. Immun. 2012, 3, 192. [62] Kachgal S, Carrion B, Janson IA, Putnam AJ. Bone marrow stromal cells stimulate an angiogenic <strong>program</strong> that requires endothelial MT1-MMP. J. Cell. Phys. 2012, 227, 3546. [63] Bryder D, Rossi DJ, Weissman IL. Hematopoietic stem cells: the paradigmatic tissue-specific stem cell. Am. J. Pathol. 2006, 169, 338. [64] Bigas A, Espinosa L. Hematopoietic stem cells: to be or Notch to be. Blood 2012, 119, 3226. [65] Fox JM, Chamberlain G, Ashton BA, Middleton J. Recent advances into the understanding of mesenchymal stem cell trafficking. Br. J. Haematol. 2007, 137, 491. [66] Caplan AI. Adult mesenchymal stem cells for tissue engineering versus regenerative medicine. J. Cell. Physiol. 2007, 213, 341. [67] Caplan AI. Why are MSCs therapeutic? New data: new insight. J. Pathol. 2009, 217, 318. [68] Bonfield TL. Adult mesenchymal stem cells: an innovative therapeutic for lung diseases. Discov. Med. 2010, 47. [69] Fausto N, Campbell JS. The role of hepatocytes and oval cells in liver regeneration and repopulation. Mech. Dev. 2003, 120, 117. [70] Fausto N. Liver regeneration and repair: hepatocytes, progenitor cells and stem cells. Hepatology 2004, 39, 1477. [71] Taupin P. Adult neural stem cells, neurogenic niches and cellular therapy. Stem Cell Rev. 2006, 2, 213. 196
References [72] Kokovay E, Wang Y, Kusek G, Wurster R, Lederman P, Lowry N, Shen q, Temple S. VCAM1 is essential to maintain the structure of the SVZ niche and acts as an environmental sensor to regulate SVZ lineage progression. Cell Stem Cell 2012, 11, 220. [73] Okano H, Sakaguchi M, Ohki K, Suzuki N, Sawamoto K. Regeneration of the central nervous system using endogenous repair mechanisms. J. Neurochem. 2007, 102, 1459. [74] Fuchs E. Skin stem cells: rising to the surface. J. Cell Biol. 2008, 180, 273. [75] Ohyama M, Terunuma A, Tock CL, Radonovich MF, Pise-Masison CA, Hopping SB, Brady JN, Udey MC, Vogel JC. Characterization and isolation of stem cellenriched human hair follicle bulge cells. J. Clin. Invest. 2006, 116, 249. [76] Yen TH, Wright NA. The gastrointestinal tract stem cell niche. Stem Cell Rev. 2006, 2, 203. [77] Chargé SBP, Rudnicki MA. Cellular and molecular regulation of muscle regeneration. Physiol. Rev. 2004, 84, 209. [78] Hsieh PCH, Segers VFM, Davis ME, MacGillivray C, Gannon J, Molkentin JD, Robbins J, Lee RT. Evidence from a genetic fate-mapping study that stem cells refresh adult mammalian cardiomyocytes after injury. Nat. Med. 2007, 13, 970. [79] Daniels JT, Harris AR, Mason C. Corneal epithelial stem cells in health and disease. Stem Cell Rev. 2006, 2, 247. [80] Carlson BM. Some principles of regeneration in mammalian systems. Anat. Records B: New Anat. 2005, 287B, 4. [81] Michalopoulos GK, de Frances MC. Liver regeneration. Science 1997, 276, 60. [82] Kawasaki S, Makuuchi M, Ishizone S, Matsunami H, Terada M, Kawarazaki H. Liver regeneration in recipients and donors after transplantation. Lancet 1992, 339, 580. [83] Starzl TE, Fung J, Tzakis A, Todo S, Demetris AJ, Marino IR, Doyle H, Zeevi A, Warty V, Kusne S, Rudert WA, Trucco M, Michaels M. Baboon-to-human liver transplantation. Lancet 1993,341, 65. [84] Berry MF, Engler AJ, Woo YJ, Pirolli TJ, Bish LT, Jayasankar V, Morine KJ, Gardner TJ, Discher DE, Sweeney HL. Mesenchymal stem cell injection after myocardial infarction improves myocardial compliance. Am. J. Physiol. Heart. Circ. Physiol. 2006, 290, H2196. [85] Park J, Ries J, Gelse K, Kloss F, von der Mark K, Wiltfang J, Neukam FW, Schneider H. Bone regeneration in critical size defects by cell-mediated BMP-2 gene transfer: a comparison of adenoviral vectors and liposomes Gene Therapy 2003, 10, 1089. 197
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INSTRUCTIVE COMPOSITES FOR BONE REG
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INSTRUCTIVE COMPOSITES FOR BONE REG
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献给潘臻 A mamma e papà A Stef
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Summary Summary Developing new biom
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Summary containing 96%mol. L-lactid
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Samenvatting De behoefte aan een de
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Samenvatting structuur, bespoedigt
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Riassunto velocità di dissoluzione
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Riassunto generale, ha migliorato i
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Chapter 1 - Introduction 1.1. Eukar
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Chapter 1 - Introduction bone marro
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Chapter 1 - Introduction All these
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CHAPTER 2 The role of gels in bone
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